Cellular Phone Based Optical Detection of Specific Nucleic Acid Sequences

1. A system to determine a presence of a known nucleic acid sequence of a known molecule in a sample in which the sample contains a targeted nucleic acid sequence, the system comprising: a sample surface configured to receive the sample, the sample surface being coated with a select segment of the known nucleic acid sequence of the known molecule, wherein the select segment of the known nucleic acid sequence of the known molecule ranges from 8 to 40 bases, the sample comprising: a plurality of beads coated with a first molecule, wherein a number of the plurality of beads ranges from 100 to 1000 and a size of the plurality of beads ranges from 0.2 to 3.0 microns, wherein the plurality of beads are provided to be sufficient for recognition of a Brownian motion; the targeted nucleic acid sequence attached to a second molecule that is configured to bind to the first molecule, such that the targeted nucleic acid sequence is attached to the plurality of beads via the first and second molecules, wherein the targeted nucleic acid sequence is being tested for having the known nucleic acid sequence of the known molecule, wherein the select segment of the known nucleic acid sequence of the known molecule is intended to be complementary to the targeted nucleic acid sequence; and a liquid medium; and an electronic communication device configured to: video monitor the Brownian motion of the plurality of beads; determine whether the Brownian motion of the plurality of beads in the liquid medium is restricted or not restricted over time; in response to determining that the Brownian motion of the plurality of beads is restricted and in response to the plurality of beads being tethered to the sample surface when the select segment of the known nucleic acid sequence of the known molecule is complementary to the targeted nucleic acid sequence, recognize the presence of the known nucleic acid sequence in the sample, thus indicating that the targeted nucleic acid sequence is the known nucleic acid sequence; and in response to determining that the Brownian motion is not restricted, recognize that the known nucleic acid sequence is not present in the sample and in response to the plurality of beads not being tethered to the sample surface when the select segment of the known nucleic acid sequence of the known molecule is not complementary to the targeted nucleic acid sequence, thus indicating that the targeted nucleic acid sequence is not the known nucleic acid sequence; wherein the electronic communication device determines whether the Brownian motion of the plurality of beads is restricted or not restricted over time by: detecting bead positions of the plurality of beads in the liquid medium; tracking the bead positions of the plurality of beads over time to obtain bead motion for the plurality of beads; and comparing the bead motion tracked for the plurality of beads to a free Brownian motion; wherein the electronic communication device compares the bead motion tracked for the plurality of beads to the free Brownian motion by: determining a sample diffusion coefficient t of the bead motion tracked for the plurality of beads when the sample of the targeted nucleic acid sequence is added to the liquid medium; determining a baseline diffusion coefficient for the plurality of beads when no targeted nucleic acid sequence is added to the liquid medium; determining that the Brownian motion of the plurality of beads is restricted when the sample diffusion coefficient is less than the baseline diffusion coefficient; determining that the Brownian motion of the plurality of beads is not restricted when the sample diffusion coefficient corresponds to the baseline diffusion coefficent.

2. The system of claim 1 , wherein the electronic communication device compares the bead motion tracked for the plurality of beads to the free Brownian motion by determining that the sample contains the known nucleic acid sequence based on the bead motion of the plurality of beads being less than the free Brownian motion.

3. The system of claim 2 , wherein the bead motion of the plurality of beads being less than the free Brownian motion denotes that the targeted nucleic acid sequence in the sample has tethered the plurality of beads to the sample surface.

4. The system of claim 3 , wherein tethering the plurality of beads to the sample surface restricts the bead motion of the plurality of beads.

5. The system of claim 3 , wherein tethering the plurality of beads to the sample surface restricts the bead motion of the plurality of beads to a circular motion.

6. The system of claim 3 , wherein the targeted nucleic acid sequence in the sample has a first end and a second end; wherein tethering the plurality of beads to the sample surface comprises the select segment coated on the sample surface attaching to the first end of the targeted nucleic acid sequence and comprises the first molecule coated on the plurality of beads attaching to the second end of the targeted nucleic acid sequence.

7. The system of claim 1 , wherein the electronic communication device compares the bead motion tracked for the plurality of beads to the free Brownian motion by determining that the sample does not contain the known nucleic acid sequence based on the bead motion of the plurality of beads corresponding to the free Brownian motion.